An ophthalmic lens assembly comprising an electronic system with a controller configured to implement a blink detection algorithm is described herein. The electronic system can also include one or more power sources, circuitry, one or more sensors, clock generation circuitry, control algorithms, and lens driver circuitry. The algorithm can be used to sample, at a predetermined rate, light incident on an eye of an individual and at least temporarily save collected samples, determine when an eyelid is open or closed, determine a time period and pulse width of the blinks from the collected samples, calculate a number of blinks and the duration of the blinks in a given time period, and compare the number of blinks, the durations of the blinks in the given time period, and the time between blinks in the given time period to a stored set of samples to determine blinking patterns.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An ophthalmic lens assembly, comprising: a photodetector; a signal path associated with an output of the photodetector, the signal path including an amplifier having a gain and configured to receive a signal from the photodetector; and a system controller in communication with the amplifier, the system controller including a processor configured to receive the amplified signal, the processor sampling at a predetermined rate, and at least temporarily saving collected samples, determining when an eyelid is open or closed in order to characterize blinking by divining the number, time period and pulse width of the blinks from the collected samples, calculating a number of blinks and the duration of the blinks in a given time period, comparing the number of blinks, the durations of the blinks in the given time period, and the time between blinks in the given time period to a stored set of samples to determine patterns in blinking, determining if the blinks correspond to one or more intentional blink sequences, the step of determining including allowance for deviations in the durations of the blinks from the durations of the blinks in the one or more predetermined intentional blink sequences and utilizing the one or more intentional blink sequences as feedback signals for the system controller.
2. The ophthalmic lens assembly of claim 1 , additionally comprising: an analog-to-digital converter (ADC) in electrical communication with the signal path and to the system controller, the ADC being configured to provide a digital signal representative of the signal from the photodetector, and the system controller being further configured to change one or more of: a mechanical property of the lens assembly, an optical property of the lens assembly, an electrical property of the lens assembly, and an operating property of the lens assembly.
3. The ophthalmic lens assembly of claim 2 wherein the system controller is configured to adjust the gain of the amplifier.
4. The ophthalmic lens assembly of claim 2 , wherein the system controller includes a memory having data associated with an operating history of the ophthalmic lens assembly.
5. The ophthalmic lens assembly of claim 4 , additionally comprising: a threshold generation circuit configured with the system controller to calculate one or more thresholds associated with the signal path.
6. The ophthalmic lens assembly of claim 5 , wherein the system controller provides a gain control signal based on one or more of: the digital signal, operating history and one or more thresholds.
7. The ophthalmic lens assembly of claim 5 , wherein the system controller is configured to generate a data value based on one or more thresholds and the gain control signal where the data value represents a determination of when an eyelid is open or closed.
8. The ophthalmic lens assembly of claim 5 , wherein the threshold generation circuit tracks a peak value and a valley value of the signal over time to generate a first threshold as an average value of the peak and valley values.
9. The ophthalmic lens assembly of claim 8 , wherein a second threshold is generated based on at least a portion of the peak value.
10. The ophthalmic lens assembly of claim 2 , further comprising: an oscillator configured to generate one or more clocking signals for the system controller and the ADC.
11. The ophthalmic lens assembly of claim 1 , wherein the amplifier is a transimpedance amplifier.
12. The ophthalmic lens assembly of claim 1 , wherein the signal path further comprises: one or more filters positioned along the signal path configured to reduce one or more of noise, interference, and fluctuations resulting at least in part from an input to the photodetector and a noise source within the signal path.
13. The ophthalmic lens assembly of claim 1 , further comprising: an automatic gain control (AGC) system configured to adjust the gain of the amplifier based upon the signal received from the photodetector.
14. The ophthalmic lens assembly of claim 13 , wherein the gain of the amplifier is adjustable in response to a gain control signal and the system controller is configured to provide the gain control signal to the amplifier gain control input.
15. The ophthalmic lens assembly of claim 1 , wherein the ophthalmic lens assembly is a contact lens.
16. The ophthalmic lens assembly of claim 1 , wherein the photodetector is configured to receive an electromagnetic signal incident on the ophthalmic lens assembly and transmit the output to the signal path based upon the electromagnetic signal.
17. The ophthalmic lens assembly of claim 16 , wherein the electromagnetic signal incident on the ophthalmic lens assembly includes at least one of an optical signal in the visible electromagnetic spectrum and an infrared signal.
18. The ophthalmic lens assembly of claim 1 , wherein the photodetector and the signal path are integrated in a semiconductor die.
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May 6, 2014
November 22, 2016
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